Electronic device and adjustable frame thereof

ABSTRACT

An adjustable frame includes a first support, a second support, two third supports and two assembling members. The second support is disposed on the first support, and the second support is slidable relative to the first support along a first direction. The two third supports are disposed on the first support. At least one of the two third supports is slidable relative to the first support along a second direction perpendicular to the first direction for adjusting a distance between the two third supports. The two assembling members are respectively disposed on the two third supports, and a distance between the two assembling members is adjustable by movement of the at least one of the two third supports.

CROSS-REFERENCE TO RELATED APPLICATIONS

This non-provisional application claims priority under 35 U.S.C. §119(a)on Patent Application No(s). 201510599296.8 filed in China on Sep. 18,2015, the entire contents of which are hereby incorporated by reference.

TECHNICAL FIELD

The disclosure relates to an adjustable frame and an electronic device,more particularly to a size adjustable frame and an electronic devicehaving the adjustable frame.

BACKGROUND

With the development of the technology, the electronic devices, such aslaptops, tablets and All-in-One PCs, have been popularized in recentyears. The electronic devices can be used for editing documents,watching videos and playing media games. Generally, the manufacturerprovides the electronic devices with different sizes, and the electronicdevice includes an output module, such as a display panel, an audiospeaker, a light source and a touch panel. The size of the output modulecan be 22 inches, 24 inches and 27 inches so that the customer canchoose a suitable product according to their requirements.

SUMMARY

According to the disclosure, an adjustable frame includes a firstsupport, a second support, two third supports and two assemblingmembers. The second support is disposed on the first support, and thesecond support is slidable relative to the first support along a firstdirection. The two third supports are disposed on the first support. Oneor more of the two third supports is slidable relative to the firstsupport along a second direction perpendicular to the first directionfor adjusting a distance between the two third supports. The twoassembling members are respectively disposed on the two third supports,and a distance between the two assembling members is adjustable bymovement of the one or more of the two third supports.

According to the disclosure, an electronic device includes a front case,a rear case, an output module and the aforementioned adjustable frame.The output module is disposed between the front case and the rear case.The output module includes a plurality of connecting members. Theadjustable frame is disposed between the front case and the rear case,and the two assembling members are assembled to two of the plurality ofconnecting members, respectively.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention will become more understood from the detaileddescription given hereinbelow and the accompanying drawings which aregiven by way of illustration only and thus are not limitative of thepresent invention and wherein:

FIG. 1 is a perspective view of an electronic device according to afirst embodiment;

FIG. 2 is an exploded view of the electronic device in FIG. 1;

FIG. 3 is a perspective view of the adjustable frame in FIG. 2;

FIG. 4 is an exploded view of the adjustable frame in FIG. 3;

FIG. 5 is a bottom view of the adjustable frame in FIG. 2;

FIG. 6 is a bottom view of the adjustable frame assembled with an outputmodule of the electronic device in FIG. 2;

FIG. 7 is a bottom view of the adjustable frame assembled with anotheroutput module having different size from the output module in FIG. 6;

FIG. 8 is a bottom view of an adjustable frame assembled with an outputmodule according to a second embodiment;

FIG. 9 is a bottom view of an adjustable frame assembled with an outputmodule according to a third embodiment;

FIG. 10 is a bottom view of an adjustable frame assembled with an outputmodule according to a fourth embodiment; and

FIG. 11 is a bottom view of an adjustable frame assembled with an outputmodule according to a fifth embodiment.

DETAILED DESCRIPTION

In the following detailed description, for purposes of explanation,numerous specific details are set forth in order to provide a thoroughunderstanding of the disclosed embodiments. It will be apparent,however, that one or more embodiments may be practiced without thesespecific details. In other instances, well-known structures and devicesare schematically shown in order to simplify the drawings.

Please refer to FIG. 1 to FIG. 5. FIG. 1 is a perspective view of anelectronic device according to a first embodiment. FIG. 2 is an explodedview of the electronic device in FIG. 1. FIG. 3 is a perspective view ofthe adjustable frame in FIG. 2. FIG. 4 is an exploded view of theadjustable frame in FIG. 3. FIG. 5 is a bottom view of the adjustableframe in FIG. 2. In this embodiment, an electronic device 10 includes afront case 100, a rear case 200, an output module 300 and an adjustableframe 400. The electronic device 10 is a screen in this embodiment, butthe disclosure is not limited thereto. The electronic device 10 can be atablet computer or an audio equipment in other embodiments.

The front case 100 and the rear case 200 are opposite to each other, andthe front case 100 and the rear case 200 can be assembled to each otherby a fastener. Both the front case 100 and the rear case 200, forexample, are made of plastic or metal.

The output module 300 is a display panel in this embodiment, but thedisclosure is not limited thereto. The output module 300 can be an audiospeaker, a light source or a touch panel in other embodiments. Theoutput module 300 is disposed between the front case 100 and the rearcase 200, and the output module 300 includes a plurality of connectingmembers 310. The connecting member 310 is a recess located at an edge ofthe output module 300 in this embodiment, but the disclosure is notlimited thereto. The connecting member 310 can be a hole capable ofbeing fastened by a hook or a screw in other embodiments.

The adjustable frame 400 is disposed between the front case 100 and therear case 200, and includes a plurality of supports which are slidablerelative to each other. In detail, the adjustable frame 400 includes afirst support 410, a second support 420, two third supports 430, twofourth supports 440 and a plurality of assembling members 450.

The second support 420 is disposed on the first support 410, and thesecond support 420 is slidable relative to the first support 410 along afirst direction (the Y-axis in FIG. 5) for adjusting a first width W1 ofthe adjustable frame 400. In detail, the first support 410 includes atleast one first sliding member 411, and the second support 420 includesat least one second sliding member 421. The first sliding member 411 andthe second support 420 may be respectively a slide block and a groovewhich are formed by the punching process, or the first sliding member411 and the second support 420 can be respectively a groove and a slideblock. The first sliding member 411 is slidably disposed on the secondsliding member 421. As seen in FIG. 5, the first sliding member 411 isable to slide relative to the second sliding member 421 toward the +Ydirection for decreasing the first width W1, and the first slidingmember 411 is also able to slide relative to the second sliding member421 toward the −Y direction for increasing the first width W1.

The second sliding member 421 can include a fixing section 421 a and areleasing section 421 b that are connected to each other. A width D1 ofthe fixing section 421 a is smaller than a width D2 of the releasingsection 421 b. A width D3 of the first sliding member 421 is larger thanthe width D1 of the fixing section 421 a and is equal to or smaller thanthe width D2 of the releasing section 421 b. Therefore, as seen in FIG.5, the first sliding member 411 is inserted in the releasing section 421b and slides from the releasing section 421 b into the fixing section421 a in a direction of arrow A so as to be assembled to the secondsliding member 421.

As seen in FIG. 4, the first support 410 can include a plurality offirst positioning members 412 arranged along the first direction (theY-axis). The first positioning member 412 can be a hole. The secondsupport 420 can include a second positioning member 422, and the secondpositioning member 422 can be a protrusion. The second positioningmember 422 is fastened to one of the first positioning members 412 so asto fix the first support 410 to the second support 420.

The two third supports 430 are disposed on the first support 410, andthe two fourth supports 440 are disposed on the second support 420. Thefirst support 410, the second support 420, the two third supports 430and the two fourth supports 440 together form the I-shaped adjustableframe 400. Both of the two third supports 430 are slidable relative tothe first support 410 along a second direction (the X-axis in FIG. 5)perpendicular to the first direction, and both of the two fourthsupports 440 are slidable relative to the second support 420 along thesecond direction; therefore, the two third supports 430 and the twofourth supports 440 are capable of adjusting a second width W2 of theadjustable frame 400.

In detail, in this embodiment, the first support 410 can include twothird sliding members 413, and the second support 420 can include twothird sliding members 423. Each of the two third supports 430 caninclude a fourth sliding member 431, and each of the two fourth supports440 can include a fourth sliding member 441. Each of the third slidingmembers 413 and 423 can be a slide block formed by the punching process,and each of the fourth sliding members 431 and 441 can be a grooveformed by the punching process; Or, the third sliding member 413, 423can be a groove, and the fourth sliding member 431, 441 can be a slideblock. The third sliding member 413 is assembled to and slidablerelative to the fourth sliding member 431, and the third sliding member423 is assembled to and slidable relative to the fourth sliding member441. As seen in FIG. 5, the third sliding member 413 is able to sliderelative to the fourth sliding member 431 along the X-axis so as toincrease or decrease a distance G1 between the two third supports 430,and thereby adjusting the second width W2. The third sliding member 423is able to slide relative to the fourth sliding member 441 so as toincrease or decrease a distance between the two fourth supports 440, andthereby adjusting the width at the opposite side of the adjustable frame400.

More specifically, the fourth sliding member 431 can include a fixingsection 431 a and a releasing section 431 b which are connected to eachother. A width D4 of the fixing section 431 a is smaller than a width D5of the releasing section 431 b. A width D6 of the third sliding member413 is larger than the width D4 of the fixing section 431 a and is equalto or smaller than the width D5 of the releasing section 431 b.Therefore, as seen in FIG. 5, the third sliding member 413 is insertedin the releasing section 431 b and slides from the releasing section 431b into the fixing section 431 a in a direction of arrow B so that thethird sliding member 413 is able to be assembled to the fourth slidingmember 431. The fourth sliding members 441 and 431 have similarstructure and assemble mechanism with the third sliding members 413 and423 so that the structure and the assemble mechanism of the fourthsliding members 441 and 431 are not repeated hereafter.

The adjustable frame 400 can further include two elastic members 460 aand 460 b in this embodiment. Two ends of the elastic member 460 a thatare opposite to each other are respectively connected to the two thirdsupports 430, and two ends of the elastic member 460 b that are oppositeto each other are respectively connected to the two fourth supports 440.When both the elastic members 460 a and 460 b are not compressed orstretched, the elastic member 460 a respectively positions the thirdsliding members 413 at the fixing sections 431 a of the fourth slidingmembers 431, and the elastic member 460 b respectively positions thethird sliding members 423 at the fixing sections 441 a of the fourthsliding members 441. Therefore, the two elastic members 460 a and 460 bare favorable for fixing the width of the adjustable frame 400 in thedirection of the X-axis.

The assembling members 450 are disposed on the two third supports 430and the two fourth supports 440, respectively, and the assembling member450 corresponds to the connecting member 310 of the output module 300.In detail, the assembling member 450 is a protrusion capable of beingfastened to the recess, but the disclosure is not limited thereto. Inother embodiments, the assembling member 450 can be a hook or a screwcapable of being fastened to a hole.

In this embodiment, as seen in FIG. 5, a distance G2 between two of theassembling members 450 is adjustable by the movement of the two thirdsupports 430. That is, the two third supports 430 are slidable relativeto the first support 410 along the second direction (the X-axis) foradjusting the distance G2 between the two assembling members 450 whichare respectively located at the two third supports 430. Similarly, thetwo fourth supports 440 are slidable relative to the second support 420for adjusting the distance between the two assembling members 450 whichare respectively located at the two fourth supports 440. Moreover, thesecond support 420 is slidable relative to the first support 410 alongthe first direction (the Y-axis) for adjusting a distance G3 between thetwo assembling members 450 which are respectively located at the thirdsupport 430 assembled to the first support 410 and the fourth support440 assembled to the second support 420. Therefore, it is favorable forassembling the adjustable frame 400 with different sized output modules.

Please refer to FIG. 6 and FIG. 7. FIG. 6 is a bottom view of theadjustable frame assembled with an output module of the electronicdevice in FIG. 2. FIG. 7 is a bottom view of the adjustable frameassembled with another output module having different size from theoutput module in FIG. 6.

As seen in FIG. 6, the adjustable frame 400 is assembled to the outputmodule 300. In detail, the distances G1 between the two third supports430 and the two fourth supports 400 are fixed by the elastic member 460a so as to determine the distance G2 between the assembling members 450.Furthermore, the second positioning member 422 is fastened to the firstpositioning member 412 so as to fix the distance G3. Therefore, thedistance G2 is equal to the distance between two adjacent connectingmembers 310 on the output module 300 in the direction of the X-axis, andthe distance G3 is equal to the distance between two opposite connectingmembers 310 on the output module 300 in the direction of the Y-axis;thereby, the size of the adjustable frame 400 is proper for assemblingwith the output module 300.

As seen in FIG. 7, when assembling a different sized output module 300a, which is larger than the output module 300, to the adjustable frame400, the third supports 430 are pulled away from each other and thefourth supports 440 are pulled away from each other so as to increaseboth of the distances between the third supports 430 and the fourthsupports 440 from G1 to G1′ in the direction of the X-axis, and therebyenlarging the distance between the adjacent assembling members 450 fromG2 to G2′. Moreover, the user can detach the second positioning member422 from the first positioning member 412 and slide the second support420 to fasten the second positioning member 422 to another firstpositioning member 412, and thereby enlarging the distance of theopposite assembling members 450 from G3 to G3′ in the direction of theY-axis. Therefore, the size of the adjustable frame 400 is proper forassembling with the output module 300 a which is larger than the outputmodule 300.

In this embodiment, when the third supports 430 are pulled away fromeach other, and the fourth supports 440 are pulled are pulled away fromeach other, both the elastic members 460 a and 460 b are stretched so asto store elastic energy. When the adjustable frame 400 is assembled tothe output module 300 a, the assembling members 450 respectively pressthe side walls in the connecting members 310 due to a tendency ofreleasing the elastic energy, and thereby the assembling members 450hold the output module 300 a.

According to this embodiment, the second support 420 is slidablerelative to the first support 410 along the first direction (the Y-axis)for adjusting the width W1 of the adjustable frame 400. Both the thirdsupport 430 and the fourth support 430 are slidable relative to thefirst support 410 and the second support 420, respectively, along thesecond direction (the X-axis) for adjusting the width W2 of theadjustable frame 400. Therefore, the size of the adjustable frame 400 isadjustable by the movements of the supports 410, 420, 430 and 440. Byadjusting the size of the adjustable frame 400, different sized outputmodules are capable of being assembled to the adjustable frame 400 sothat it is unnecessary to provide different sized frames for the outputmodules, and thereby the manufacturing process is simplified and thecost of preparing the frame is reduced.

The two third supports and the fourth supports are all slidable alongthe first direction in the first embodiment shown in FIG. 1, but thedisclosure is mot limited thereto. Please refer to FIG. 8, which is abottom view of an adjustable frame assembled with an output moduleaccording to a second embodiment. Since the second embodiment is similarto the first embodiment, only the differences between the first and thesecond embodiment will be illustrated hereafter.

In this embodiment, one of the third supports 430 of the adjustableframe 400 a is slidably disposed on the first support 410, and anotherone of the third supports 430 is fixed to the first support 410. Thethird support 430 and the first support 410 that are fixed together canbe integrally formed or two independent members that are fastened toeach other. Furthermore, one of the fourth supports 440 of theadjustable frame 400 a is slidably disposed on the second support 420,and another one of the fourth supports 440 is fixed to the secondsupport 420. The fourth support 440 and the second support 420 that arefixed together can be integrally formed or two independent members thatare fastened to each other.

The fourth support is optional for the adjustable frame. Please refer toFIG. 9, which is a bottom view of an adjustable frame assembled with anoutput module according to a third embodiment. Since the thirdembodiment is similar to the first embodiment, only the differences willbe illustrated hereafter.

In this embodiment, the adjustable frame 400 b includes the thirdsupports 430 without including the fourth support 440 so that theadjustable frame 400 b shows a T shape. The two third supports 430 areslidable relative to the first support 410. The assembling members ofthe adjustable frame 400 b, for example, are a plurality of holes. Theadjustable frame 400 b can be assembled to the output module 300 byscrews 500.

Please refer to FIG. 10, which is a bottom view of an adjustable frameassembled with an output module according to a fourth embodiment. Sincethe fourth embodiment is similar to the third embodiment, only thedifferences will be illustrated hereafter.

In this embodiment, one of the third supports 430 of the adjustableframe 400 c is slidably disposed on the first support 410, and anotherone of the third supports 430 is fixed to the first support 410. Thethird support 430 and the first support 410 that are fixed together canbe integrally formed or two independent members that are fastened toeach other.

In the first embodiment, both the third support and the fourth supportare a single plate, but the disclosure is mot limited thereto. Pleaserefer to FIG. 11, which is a bottom view of an adjustable frameassembled with an output module according to a fifth embodiment. Sincethe fifth embodiment is similar to the first embodiment, only thedifferences will be illustrated hereafter.

In this embodiment, each of the two third supports 430 d includes afirst part 435 and a second part 436. The first part 435 is slidablydisposed on the first support 410, and the second part 436 is slidablydisposed on the first part 435. Each of the two fourth supports 440 dincludes a first part 445 and a second part 446. The first part 445 isslidably disposed on the second support 420, and the second part 446 isslidably disposed on the first part 445. The position of the second part436 at the first part 435 can be fixed by a protrusion and a recess orby an elastic member. Similarly, the second part 446 at the first part445 can be fixed by a protrusion and a recess or by an elastic member.The method of fixing the second parts 436 and 446 to the first parts 435and 445, respectively, by the protrusion and the recess can be a similarmanner as the assembling method of the first positioning member 412 andthe second positioning member 422 illustrated in the first embodiment.The method of fixing the second parts 436 and 446 to the first parts 435and 445, respectively, by elastic member can be a similar manner as theassembling method of the two third supports 430 illustrated in the firstembodiment.

In addition, the number of the first supports in the above embodimentsis two, but the disclosure is not limited thereto. In other embodiments,the number of the first supports can be more than two.

According to the disclosure, the second support is slidable relative tothe first support along the first direction, and the third support isslidable relative to the first support along the second directionperpendicular to the first direction. Therefore, the size of theadjustable frame is adjustable by the movements of the aforementionedsupports. By adjusting the size of the adjustable frame, different sizedoutput modules are capable of being assembled to the adjustable frame sothat it is unnecessary to provide different sized frames for the outputmodules with different sizes, and thereby simplifying the manufacturingprocess and reducing the manufacturing cost.

The foregoing description, for the purpose of explanation, has beendescribed with reference to specific embodiments; however. Theembodiments were chosen and described in order to best explain theprinciples of the disclosure and its practical applications, to therebyenable others skilled in the art to best utilize the disclosure andvarious embodiments with various modifications as are suited to theparticular use contemplated. The embodiments depicted above and theappended drawings are exemplary and are not intended to be exhaustive orto limit the scope of the disclosure to the precise forms disclosed.Modifications and variations are possible in view of the aboveteachings.

What is claimed is:
 1. An adjustable frame, comprising: a first support;a second support disposed on the first support, and the second supportbeing slidable relative to the first support along a first direction;two third supports disposed on the first support, at least one of thetwo third supports being slidable relative to the first support along asecond direction perpendicular to the first direction for adjusting adistance between the two third supports; and two assembling membersrespectively disposed on the two third supports, and a distance betweenthe two assembling members being adjustable by movement of the at leastone of the two third supports.
 2. The adjustable frame according toclaim 1, wherein the first support comprises at least one first slidingmember, the second support comprises at least one second sliding member,and the at least one first sliding member is slidably disposed on the atleast one second sliding member.
 3. The adjustable frame according toclaim 2, wherein the at least one first sliding member is one of a slideblock and a groove, and the at least one second sliding member is theother one of the slide block and the groove.
 4. The adjustable frameaccording to claim 3, wherein the at least one first sliding member isthe slide block, the at least one second sliding member is the groove,the at least one second sliding member comprises a releasing section anda fixing section that are connected to each other, a width of the atleast one first sliding member is larger than a width of the fixingsection, and the width of the at least one first sliding member is equalto or alternatively smaller than a width of the releasing section. 5.The adjustable frame according to claim 3, wherein the first supportcomprises a plurality of first positioning members arranged along thefirst direction, the second support comprises a second positioningmember, and the second positioning member is fastened to one of theplurality of first positioning members.
 6. The adjustable frameaccording to claim 3, wherein one of the two third supports is fixed tothe first support, and the other one of the two third supports isslidably disposed on the first support.
 7. The adjustable frameaccording to claim 3, wherein the two third supports are slidablydisposed on the first support.
 8. The adjustable frame according toclaim 7, wherein the first support comprises two third sliding members,each of the two third supports comprises a fourth sliding member, andthe two third sliding members are slidably disposed on the two fourthsliding members, respectively.
 9. The adjustable frame according toclaim 8, wherein the third sliding member is one of a slide block and agroove, and the fourth sliding member is the other one of the slideblock and the groove.
 10. The adjustable frame according to claim 9,wherein the third sliding member is the slide block, the fourth slidingmember is the groove, the fourth sliding member comprises a releasingsection and a fixing section that are connected to each other, a widthof the third sliding member is larger than a width of the fixingsection, and the width of the third sliding member is equal to oralternatively smaller than a width of the releasing section.
 11. Theadjustable frame according to claim 10, further comprising an elasticmember, wherein two ends of the elastic member that are opposite to eachother are respectively connected to the two third supports forpositioning the two third sliding members at the fixing sections of thetwo fourth sliding members, respectively.
 12. The adjustable frameaccording to claim 1, wherein the assembling member is a protrusion, ahook or alternatively a hole.
 13. The adjustable frame according toclaim 1, further comprising two fourth supports disposed on the secondsupport, wherein at least one of the two fourth supports is slidablerelative to the second support along the second direction for adjustinga distance between the two fourth supports.
 14. The adjustable frameaccording to claim 13, wherein one of the two fourth supports is fixedto the second support, and the other one of the two fourth supports isslidably disposed on the second support.
 15. The adjustable frameaccording to claim 14, wherein the two fourth supports are slidablydisposed on the second support.
 16. The adjustable frame according toclaim 1, wherein each of the two third supports comprises a first partand a second part, the first part is slidably disposed on the firstsupport, and the second part is slidably disposed on the first part. 17.An electronic device, comprising: a front case; a rear case; an outputmodule disposed between the front case and the rear case, and the outputmodule comprising a plurality of connecting members; and the adjustableframe according to claim 1, the adjustable frame being disposed betweenthe front case and the rear case, and the two assembling members beingassembled to two of the plurality of connecting members, respectively.